Modern high-resolution volumetric tomography, commonly known as cone beam computed tomography (CBCT), is one of the most innovative imaging techniques which can provide views of anatomical structures not attainable by conventional techniques. Magnetic field LED therapy is a physical therapy method, combining the effects of the Extremely Low Frequency-Electromagnetic Field (ELF-EMF) and high-power light radiation emitted by Light Emitting Diodes (LEDs). The method has been widely applied in the treatment and rehabilitation of complications of many medical conditions, including in dentistry. The aim of this study was to use CBCT to assess the effectiveness of the simultaneous use of electromagnetic field and LED light in the physical therapy of paranasal sinusitis. Treatments employing the electromagnetic field combined with LED light were administered to a 39-year-old female outpatient of the physiotherapy ward for rehabilitation therapy of paranasal sinusitis. Normal sinus pneumatization was restored almost completely. Reduction in the swelling of the sinus mucosa was so significant that even the pneumatization of the ethmoid bulla was restored. Physical therapy with the simultaneous use of ELF-EMF and LED light was found to be effective in the rehabilitation of the patient with paranasal sinusitis. Positive effects of the treatment were confirmed by CBCT findings.
Myofascial pain syndrome (MPS) is one of the most common ailments associated with the human musculoskeletal system, characterised by the presence of the so-called trigger points (TrP – trigger point; MTrPs – myofascial trigger points). The International Association for the Study of Pain indicates that MPS may affect approximately one-third of people with chronic musculoskeletal pain, and that there is a lack of appropriate classification which can be attributed to a misunderstanding and/or misinterpretation of the pathophysiology. Given the diverse causes of pain syndromes in myofascial structures, it is vital to properly select and integrate therapeutic methods. The scientific literature indicates that treatment programmes should include a variety of manual therapy methods and rehabilitation exercises. Trigger point therapies, such as dry needling or dry cupping, are also widely used. At the heart of the success of rehabilitation programmes, in the opinion of the authors of this publication, is their multimodality, i.e. selection of therapeutic methods based on the cause of the pain, providing for measurable, reproducible diagnostic methods in therapy. Aim of the study. The aim of this study is to analyse and infer conclusions on multimodal myofascial pain therapy programmes. Material and methods. Given the complex research problem set as the aim, the study was carried out through a literature review in terms of two criteria: Criterion I (C I): analysis of the literature on the etiology and pathogenesis of myofascial pain (i.e. causes and triggers, symptoms, social and environmental factors determining the onset of MPS), diagnostic procedures (initial diagnosis and ongoing monitoring of treatment outcomes), and therapeutic methods used in the course of MPS. Criterion II (C II): a literature study of research publications addressing multimodal programmes for myofascial pain therapy, with their qualitative evaluation using the modified PEDro scale, and empirical testing of hypotheses based on the literature study and the analysis made in Part I. Data sources: PubMed, SCOPUS, Science Direct, MEDLINE, PEDro, Cochrane, Embase, Web of Science Core Collection, Google Scholar electronic databases were searched systematically, restricting the languages to English and German only. Results. The analysis of the literature showed that the causes, symptoms and associations of myofascial pain have been described in detail. There are also numerous reports on a variety of therapeutic methods, together with a precisely described methodology for their implementation. It is not uncommon to recommend combining methods into multimodal programmes, which unfortunately does not mean that there are many such programmes or that studies on MPS are consistent. The literature study on multimodal treatment programmes for MPS revealed that there is no correlation between its pathogenesis and a purposeful selection of specific therapeutic methods. In a small number of cases, a complex etiopathogenesis led to the formation of multidisciplinary teams. This may be associated with the absence of strict recommendations on the diagnostic methods applicable to the assessment of MPS. Conclusions. 1. Multimodal programmes for the treatment of musculoskeletal pain, notably MPS and MTrPs, should include a detailed and comprehensive diagnosis (structural, biochemical, psycho-emotional) which should serve as the basis for the formation of interdisciplinary rehabilitation teams. 2. Musculoskeletal diagnosis, in addition to radiological assessment, should include measurable techniques of postural and functional assessment (such as pedobarography, wearable sensors, assisted anthropometry, i.e. photogrammetry, videogrammetry, etc.), aimed primarily at the ongoing assessment of posture. 3. The choice of therapeutic methods and patient education should be based on the causes of the patient’s pain, taking into account systemic diseases, postural defects, lifestyle and psycho-emotional state. 4. Scientific research in multimodal treatment programmes should be carried out in randomised groups, with due attention to the methodologies of diagnostic and therapeutic procedures and group selection.
Increased pressure on the heel apophysis is often implicated as a cause of paediatric heel pain. However, there are few reports on the causes of the increased pressure and its origin. Therefore, the aim of this study was to analyse the distribution of pressure on the feet in children with heel pain. The study included 33 paediatric patients with non-traumatic heel pain, i.e., 24 boys (73%) and 9 girls (27%), aged on average 11.2 years (±3 years). Pedobarographic diagnostics proved a decrease in the pressure on the heels in relation to the ground and the transfer of the projection of the centre of gravity to the forefoot. While standing, the average contribution of the pressure on the heel was 0.52, SD = 0.14 in children with normal and reduced weight. In overweight children, the average pressure on the heel was higher (0.60, SD = 0.08), but the small number of children with this characteristic (n = 4) did not allow conclusions to be drawn in this area. Heel underload was also demonstrated during gait. However, the assessment of this aspect requires additional observational analyses in the field of propulsion and gait phases. The reduced pressure on the heel promotes apophysis traction, causing intracanal compression. Studies have shown that the causes of apophysis traction may be postural defects (in particular, forward inclination of body posture) and overpronation of the foot, or defects in the metatarsal area.
Although it enables a quick evaluation, medical diagnostics of the human myofascial-skeletal system is not always used to its full capabilities. This often hampers the objective assessment of a dysfunction and limits treatment options. Dysfunctions of the stomatognathic system, of different aetiology, are becoming more prevalent. Many scientific studies are in to relationships between organs and systems of the human body that can cause dysfunctions of the temporomandibular disorders. Studies investigating correlations between a myofascial-skeletal disorder and temporomandibular disorders are to be found in the literature. To achieve a good understanding of aetiology of these dysfunctions, a holistic view of a patient is advisable, which takes into consideration the fact that the temporomandibular joint is an integral part of the whole body. This study is a review of the literature, supported by own examples on investigating the relationship between myofascial-skeletal disorders and a temporomandibular disorder, which, in the light of current medical knowledge, is attributed to the phenomenon of biotensegrity. A conclusion has been put forward on the basis of 136 scientific reports that a dependency exists between the said dysfunctions.
Infant respiratory distress syndrome (IRDS) develops among premature infants due to structural immaturity of the lungs and insufficient production of pulmonary surfactant. Nowadays, treatment takes place under conditions of intensive care and includes oxygen therapy, mechanical ventilation, exogenous supplementation of pulmonary surfactant and antenatal corticosteroid therapy. The treatment of IRDS, especially mechanical ventilation, may lead to complications which can contribute to developing a severe dysfunction of the respiratory system. Unavailability of pharmacological treatment of IRDS and development of pulmonary barotrauma due to mechanical ventilation in our patient led to the forming of severe pulmonary interstitial emphysema. In this Case Report, lung transplantation was performed as an only successful therapeutic option.
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